Vaporizer, Consumable Container Therefore, Vaporizer System Thereof and Method of Obtaining Information About a Consumable Container

ABSTRACT

The present invention relates to a vaporizer configured to be connected to a consumable container for vaporizing a consumable contained in the consumable container, a vaporizer connecting surface of the vaporizer being connected to a consumable container connecting surface of the consumable container when the vaporizer is connected to the consumable container, wherein the vaporizer comprises one or more detecting units comprising a resilient member on the vaporizer connecting surface, on which the resilient member can take a projected or retracted position, configured to detect one or more aspects of the shape of the consumable container connecting surface encoding information about the consumable container by detecting whether or not or to which extent the resilient member is in a projected or retracted position when the vaporizer is connected to the consumable container.

TECHNICAL FIELD

The present invention is directed to personal vaporizing devices, such as electronic cigarettes. More specifically, the present invention is directed to a vaporizer, a consumable container therefore, a vaporizer system thereof comprising the vaporizer and the consumable container, and a method of obtaining information by the vaporizer about the consumable container.

BACKGROUND

Electronic cigarettes are an alternative to conventional cigarettes. Instead of generating a combustion smoke, they vaporize a liquid, which can be inhaled by a user. The liquid typically comprises an aerosol-forming substance, such as glycerin or propylene glycol that creates the vapor. Other common substances in the liquid are nicotine and various flavorings.

The electronic cigarette is a hand-held inhaler system, comprising a mouthpiece section, a liquid store, and a power supply unit. Vaporization is achieved by a vaporizer or heater unit which typically comprises a heating element in the form of a heating coil and a fluid transfer element. The vaporization occurs when as the heater heats up the liquid in the wick until the liquid is transformed into vapor. The electronic cigarette may comprise a chamber in the mouthpiece section, which is configured to receive disposable consumables in the form of capsules. Capsules style consumable containers comprising the liquid store and the vaporizer are often referred to as “cartomizers”.

Different types of e-liquid solutions with different flavors or substances require different settings of the vaporizer, such as heating time and temperature. There is also a need for customers to only consume the authentic consumable container. Information exchange between the consumable container and the vaporizer is thus necessary.

The current vaporizers use data communication to identify the consumable container. For example, CN 11095991 A discloses an electronic cigarette including a tobacco/cigarette rod and a cartridge inserted into the tobacco rod. The cartridge includes a PCB module with an authentication circuit. The tobacco/cigarette rod 12 includes pins and a main control module. When the cartridge is coupled to the tobacco/cigarette rod, the connectors contact with the contact pads of the lower end of the PCB module. Further, the main control module detects data information of the authentication circuit 112 electrically connected to the connectors in the PCB module to identify the cartridge.

However, the electronic cigarette and the cartridge provided in the prior art is complex in structure. Having a complex IC module in the cartridge also increases the cost of the consumable container.

SUMMARY OF THE INVENTION

The present invention provides a smoking article for an aerosol generation device, which solves some of or all of the above problems.

A 1st embodiment of the invention is directed to a vaporizer configured to be connected to a consumable container for vaporizing a consumable contained in the consumable container, a vaporizer connecting surface of the vaporizer being connected to a consumable container connecting surface of the consumable container when the vaporizer is connected to the consumable container, wherein the vaporizer comprises one or more detecting units comprising a resilient member on the vaporizer connecting surface, on which the resilient member can take a projected or retracted position, configured to detect one or more aspects of the shape of the consumable container connecting surface encoding information about the consumable container, by detecting whether or not or to which extent the resilient member is in a projected or retracted position when the vaporizer is connected to the consumable container.

With this arrangement, the information about the consumable container can be obtained by the vaporizer in a simple and economical way.

According to a 2nd embodiment, in the 1st embodiment, the resilient member is configured to detect indentations and/or protrusions arranged on a predetermined area of the consumable container connecting surface.

According to a 3rd embodiment, in any one of the preceding embodiments, the detecting units are arranged on a main level and/or in a recess underneath the main level of the vaporizer connecting surface.

According to an 4th embodiment, in any one of the preceding embodiments, the resilient member is configured to detect different depth and/or height levels of the indentations and/or protrusions.

With this arrangement, more complex data can be encoded on the one or more aspects of the shape of the consumable container.

According to a 5th embodiment, in any one of the preceding embodiments, the vaporizer comprises a decoding unit configured to decode the information encoded by the one or more aspects of the shape of the consumable container connecting surface.

According to a 6th embodiment, in any one of the preceding embodiments, the resilient member is a pogo pin.

According to a 7th embodiment, in any one of the preceding embodiments, the information is determined at least by detecting if the pogo pin is electronically connected with the information by determining.

According to an 8th embodiment, in any one of the preceding embodiments, the pogo pins are capable of supplying a power to the consumable container.

With this arrangement, the vaporizer system is designed in a more compact way.

According to a 9th embodiment, in any one of the preceding embodiments, the vaporizer comprises an operation unit, which is configured to check a table stored in the vaporizer against data obtained by detecting the one or more aspects of the shape of the consumable container connecting surface.

A loth embodiment of the invention is directed to a consumable container configured to be connected to a vaporizer according to any one of the preceding claims and containing a consumable for being vaporized in the vaporizer, the consumable container comprising a consumable container connecting surface being connected to a vaporizer connecting surface of the vaporizer when the consumable container is connected to the vaporizer, the shape of the consumable container connecting surface having one or more aspects which encode information about the consumable container.

According to an 11th embodiment, in the preceding embodiment, at least pails of the consumable container connecting surface are made of a conductible material.

According to a 12th embodiment, in the 9th or 10th embodiment, the consumable container is powered by an electrical connection between the consumable container connecting surface and the vaporizer connecting surface of the vaporizer.

According to a 13th embodiment, in the 9th to 11th embodiment, the one or more aspects of the shape of the consumable container connecting surface comprises indentations and/or protrusions at a predetermined area of the consumable container connecting surface.

According to a 14th embodiment, in the 12th embodiment, the information is encoded by the presence of absence of indentations and/or protrusions on the consumable container connecting surface, and/or the depth and/or height levels of the different indentations and/or protrusions.

A 15th embodiment of the invention is directed to a vaporizer system comprising a vaporizer according to any one of the 1st to 9th embodiments and a consumable container according to any one of the 10th to 14th embodiments.

A 16th embodiment of the invention is directed to a method of obtaining information about a consumable container according to any one of the 10th to 14th embodiments, configured to be connected to a vaporizer according to any one of the 1st to 9th embodiments, comprising the step of:

detecting which ones of the resilient members of the vaporizer are pressed down and/or how far a resilient member is pressed down when the vaporizer is connected to the consumable container, decoding the information on the basis of the detection.

According to a 17th embodiment, in the 16th embodiment, the information is decoded by checking a table stored in the vaporizer against data obtained by the detection.

According to an 18th embodiment, in the 16th or 17th embodiment, the method comprises the step of indicating at least some of the obtained information to the user.

According to a 19th embodiment, in the 18th embodiment, the information is indicated by activating one or more LEDs comprised by the vaporizer.

Preferred embodiments are now described, by way of example only, with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIGS. 1 a and 1 c : show a schematic perspective view, a schematic perspective side view, and an exploded schematic perspective view of an electronic cigarette according to an exemplary embodiment of the present invention;

FIGS. 2 a to 2 c : shows a schematic view of a consumable container, a vaporizer and an exploded schematic view of a detecting unit according to an exemplary embodiment of the present invention;

FIGS. 3 a to 3 e : shows partial cross section views of the detecting units installed in the vaporizer, and schematic perspective views of detecting units in different status according to embodiments of the invention;

FIGS. 4 a and 4 b : show schematic perspective (cross sectional) views of detecting units being in use with a part of the consumable container according to embodiments of the invention;

FIG. 5 : shows a flow chart of a process of obtaining information by the vaporizer about a consumable container according to an embodiment of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Preferred embodiments of the present invention are described hereinafter and in conjunction with the accompanying drawings.

As used herein, the term “vaporizer system”, “inhaler” or “electronic cigarette” may include an electronic cigarette configured to deliver an aerosol to a user, including an aerosol for smoking. The illustrated embodiments of the vaporizer system in this invention are schematic, and it is also possible to combine some of the parts to single units which will be apparent to a person skilled in the art.

Referring to the drawings and in particular to FIGS. 1 a, 1 b and 1 c , an electronic cigarette for vaporizing an e-liquid is illustrated. The electronic cigarette 3 can be used as a substitute for a conventional cigarette. The electronic cigarette 3 has a vaporizer main body 1 comprising a container seating, an LED light 110, a power supply unit, and an electrical circuitry. A container seating is configured to receive removable consumable container 2 comprising a vaporizing e-liquid. The e-liquid may comprise an aerosol-forming substance such as propylene glycol and/or glycerol and may contain other substances such as nicotine and acids. The e-liquid contained in the consumable container 2 may also comprise different types of flavorings such as tobacco, menthol or fruit flavor. The container seating is preferably in the form of a cavity configured to receive the consumable container 2 as shown in figure ic. The consumable container 2 comprises an e-liquid chamber unit portion, on the insertion side, and a mouthpiece portion 210, on the opposite side of the insertion side. The mouthpiece section 210 has a tip-shaped form with an air outlet at one end to correspond to the ergonomics of the user's mouth. The e-liquid chamber unit 204 is located at the opposite end of the consumable container 2 to the mouthpiece portion 210. The chamber unit 204, shown in more detail in FIG. 2 a , may have a transparent wall, in which elements well known to the skilled person such as a tubular vapor channel, liquid uptake portions, a heating element and a fluid transfer element etc. are configured.

FIG. 1 c shows the surfaces through which the consumable container 2 contacts the vaporizer when the consumable container 2 is connected to the vaporizer 1 for use. They comprise a first consumable container connecting surface 221, on a distal end of the chamber unit 204 to the mouthpiece portion 210, and a second consumable container connecting surface 220, on an end of the mouthpiece portion close to the chamber unit 204. In another embodiment, the consumable container 2 may have only one surface connecting the vaporizer main body 1. In yet other embodiments, there may be more than two connecting surfaces between the vaporizer main body 1 and the consumable container 2.

On the first consumable container connecting surface 221, the consumable container 2 is configured with two power terminals 45, and air inlets 35. On the second consumable container connecting surface 220, an information coding area (shown in the square of broken lines in FIGS. 1 c, 2 a, 4 a and 4 b ) is shaped with one or more aspects which encode information about the consumable container. In the embodiment according to FIG. 1 c , multiple protrusions 201 are provided and shaped on the second consumable container connecting surface 220.

In the embodiment according to FIG. 2 a , multiple indentations 201 in arc shapes, which have a size that can contain the resilient members therein without connecting when the vaporizer main body 1 and the consumable container 2 are connected, are provided and shaped on the second consumable container connecting surface 220. In other embodiments, both indentations and protrusions 201 are shaped on the consumable container connecting surface. The protrusions and/or indentations 201 have one or more aspects in the form of a machine-readable pattern representing coded authentication information. In other embodiments, the protrusions and/or indentations 201 may also contain information about the consumable or the container 2, such as the types thereof or relative setting data of the vaporizer 1 for the container 2. The encoding method for the aspects of the shape formed on the consumable container connecting surface 210 is discussed below.

In some embodiments, at least a part of the protrusions is made of a conductible material and integrated with a power inlet of the consumable container 2 so that at least a part of the protrusions 201 can serve as power terminals 202 of the consumable container 2, with the benefit of no need of setting another power source to the container 2 and a more compact design.

FIG. 2 b shows a closer schematic view of the container seating, looking at it from the vaporizer main body 1 in the insertion direction. The container seating is provided with connection portions 103 and 105 configured to hold the container firmly to the container seating 2 in a snap fit and magnetic fit way. The connection portion could also for instance be an interference fit, a screw fit, or a bayoneted fit. The container seating further comprises a pair of electrical connectors 104 configured to engage with corresponding power terminals 202 on the consumable container 2.

Similar to the consumable container 2, the vaporizer main body 1 may comprise at least two surfaces which contact the consumable container 2 when the consumable container 2 is connected to the vaporizer 1 for use. The first vaporizer connecting surface 121 is located where the electrical connectors 104 are arranged. The second vaporizer connecting surface 120 has a detecting area (shown in the square with broken lines) arranged thereon, with at least one or more detecting units 101. In another embodiment, the consumable container 2 may have only one surface connecting the vaporizer main body 1, on which the detecting area is arranged. In yet other embodiments, there may be more than two connecting surfaces between the vaporizer main body 1 and the consumable container 2, and the detecting area may be arranged on multiple surfaces. As shown in FIG. 2 b , the detecting area is arranged on a predetermined area of the vaporizer connecting surface 120. In some embodiments, the detecting area, together with the information coding area, are arranged at opposite regions of the vaporizer connecting surface 120 and the consumable connecting surface 220, so that the consumable container 2 can be detected independent of the direction in which the consumable container 2 is inserted in the vaporizer seating. In other embodiments, the detecting area may be arranged on the entire surface, namely on the entire circle surface of the second vaporizer connecting surface 120.

The detecting units 101 comprise a resilient member connected with a sensor. The detecting units 101 arranged in the detecting area of the vaporizer correspond to the one or more aspects of the shape of the consumable container connecting surface. The resilient members are configured to detect one or more aspects of the shape of the consumable container connecting surface encoding information about the consumable container, by detecting whether or not or to which extent the resilient member is in a projected or retracted position when the vaporizer main body 1 is connected to the consumable container 2.

FIG. 2 c shows an exploded schematic view of the detecting unit 101 according to an embodiment of the invention in detail. In this embodiment, the detecting unit 101 may be assembled from a barrel 1011, a plunger head 1012, a ball 1013, a spring 1014 and a pressure sensor 1015. In some embodiments, the resilient member may be completely made of metal. When the protrusions or the vaporizer connecting surface touches the detecting unit after the container 2 is inserted completely in the vaporizer 1, a force is applied to the plunger head 1012. The spring 1014 is thus compressed and the plunger head 1012 and the balls 1013 move inside the barrel 1011. The barrel 1011 retains the plunger head 1012 and the spring from pushing it out when the plunger head 1012 is not locked in place. The force is then transferred to the pressure sensor, which is connected to a decoding unit comprised by the vaporizer.

The decoding unit is configured to decode the information encoded by the one or more aspects of the shape of the consumable container connecting surface. The decoding unit decodes the information by determining which ones of the resilient members 101 are pressed down (retracted) when the vaporizer 1 is connected to the consumable container 2. In some embodiments, the decoding unit decodes the information by determining how far the resilient members are pressed down, namely by detecting the strength of the pressure by means of the pressure sensor 1015, when the vaporizer 1 is connected to the consumable container 2. As shown in FIGS. 3 c to 3 e , from a projected position, via a half-way retracted position to a fully retracted position, the resilient members may be configured to detect different depth and/or height levels of the indentations and/or protrusions 201 which are encoded with and represent different information. The decoding unit is further electronically connected to an operation unit in the vaporizer, which is configured to check a table stored in the vaporizer against obtained pressure data. The pressure sensor, the decoding unit and the operation unit can be of any type that exists in the prior art. The ball 1013 is configured inside the detecting unit 101 so as to stabilize the contacting areas for a better performance. Other kinds of arrangements, such as “back drill style” or “bias tail style”, which do not have a ball arranged inside the barrel can also be applied to the detecting unit 101. In some embodiments, the sensor 1015 may be a sensor which senses whether the plunger head 1012 has been electronically connected with a conducted surface of the container 2 so as to determine which ones of the resilient members have been pressed down. Preferably, the resilient members are pogo pins.

As shown in FIGS. 3 a and 3 b , there are at least two types of arrangements for the detecting units 101 are arranged on a main level and/or in a recess underneath the main level of the vaporizer connecting surface. As shown in FIG. 3 a , the detecting unit in projected position may be partially arranged above the vaporizer main level of the connecting surface 120. The plunger head 1012 is exposed on the vaporizer connecting surface 120 and is pressed down if the container connecting surface 220 on the container connecting surface 220 touches the plunger head when the container 2 is installed and fixed on the vaporizer. On the other hand, the plunger head 1012 is not pressed down if the plunger head 1012 fits in an indentation 201 of the container connecting surface 220 when the container 2 is connected to the vaporizer main body 1. In another arrangement, as shown in FIG. 3 b , the detecting unit 101 in projected position is arranged entirely in a recess formed by the connecting surface 120, and therefore underneath the main level of the vaporizer connecting surface 120. The detecting unit 101 is pressed down (retracted) when a protrusion on the container connecting surface 220 touches the plunger head 1012 when the container 2 is connected to the vaporizer main body 1.

As discussed above, the information may be encoded by the presence of absence of indentations and/or protrusions 201 on the consumable container connecting surface, and/or the depth and/or height levels of the different indentations and/or protrusions 201 as shown in FIGS. 3 c to 3 e . In embodiments where multiple detecting units 101 are arranged in the detecting area, the pattern of the indentations and/or protrusions 201 may represent binary-coded data. Any known binary coded formats can be used, such as ASCII, Unicode, GBK, GBK2312, UTF-8. Any kind of information related to the consumable container 2 can be encoded by the indentations and/or protrusions 201.

Hereinafter, two embodiments of the process of obtaining information by the vaporizer 1 about a consumable container 2 are discussed with regard to FIGS. 4 a and 4 b together with FIG. 5 .

According to an embodiment in which the information is encoded as binary data. When the consumable container 2 is connected to the vaporizer 1, the vaporizer may be switched on manually, or automatically if at least one of the detection units are pressed down and/or if the detection units are electronically connected with the consumable container surface 220. The positions of the resilient members are detected, in particular which ones of the resilient members of the vaporizer are retracted and/or if the detection units are electronically connected with the consumable container surface 220 (S101). The information coded by the consumable container surface 220 is decoded, e.g. by checking a table stored in a memory unit of the vaporizer against the result of the detection (S102, S103). At least some of the decoded information may be indicated to the user by adjusting the intensity of the light color emitted by the LED light 110. E.g., the LED light 110 of FIG. 1 may be activated with a light with red intensified in colors, indicating a type A consumable container is connected, if a first and a second detecting units 101 are pressed down (retracted) or electronically connected, while the other detecting units 101 fit in the indentations 201 and remain in their projected position without touching the consumable container connecting surface (shown in FIG. 4 a ). As another example, the LED light no may be activated with a light with blue intensified in colors, indicating a type B consumable container is connected, if a third and a forth detecting units 101 are pressed down or electronically connected, or a light with green intensified in colors, indicating a type C consumable container is connected, if a fifth and a sixth detecting units 101 are pressed down or electronically connected (S104). In all these cases, the vaporizer may be set up or configured in a mode which corresponds to the type of the consumable container.

In another embodiment of this invention, as shown in FIG. 4 b together with FIG. 5 and based on the above embodiment, the retraction levels of resilient members are detected as well, i.e. how far the resilient members are pressed down (S101). The connected consumable connecter 2 is authenticated by checking if the protrusions 201 on the container connecting surface 220 connect and press the detecting units 101 in a predefined pattern. As shown in FIG. 4 b , a first protrusion sticks out from the container connecting surface 220 by a first length so that a first detecting unit 101 is fully pressed down to its fully retracted position, and then outputs data “A” to the decoding unit. A second protrusion sticks out from the container connecting surface 220 by a second length so that a second detecting unit 101 is half-way pressed down to its half-way retracted position, and then outputs data “B”. No protrusions are at the positions corresponding to a third and a fourth detecting units 101, the detecting units 101 are not pressed down and in their projected position, and then output data “C” (S102). It is determined if the connected consumable container 2 is authentic by checking if data “ABCC” represents consumable container 2 being authentic in a table stored in the vaporizer (S103). The operation of the vaporizer system 3 is activated if the consumable container is determined to be authentic (S104). 

1. A vaporizer configured to be connected to a consumable container for vaporizing a consumable contained in the consumable container, the vaporizer including a vaporizer connecting surface configured to be connected to a consumable container connecting surface of the consumable container when the vaporizer is connected to the consumable container, wherein the vaporizer comprises one or more detecting units comprising a resilient member on the vaporizer connecting surface, the resilient member having a projected and retracted position, the one or more detecting units being configured to detect one or more aspects of a shape of the consumable container connecting surface encoding information about the consumable container by detecting whether or not or to which extent the resilient member is in the projected or the retracted position when the vaporizer is connected to the consumable container.
 2. The vaporizer according to claim 1, wherein the resilient member is configured to detect indentations and/or protrusions arranged on a predetermined area of the consumable container connecting surface.
 3. The vaporizer according to claim 2, wherein the detecting units are arranged on a main level and/or in a recess underneath the main level of the vaporizer connecting surface.
 4. The vaporizer according to the claim 3, wherein the resilient member is configured to detect different depth and/or height levels of the indentations and/or protrusions.
 5. The vaporizer according to claim 1, wherein the vaporizer further comprises a decoding unit configured to decode the information encoded by the one or more aspects of the shape of the consumable container connecting surface.
 6. The vaporizer according to claim 1, wherein the resilient member is a pogo pin.
 7. The vaporizer according to claim 6, wherein the information is determined at least by detecting if the pogo pin is electronically connected with a conductive surface of the consumable container.
 8. The vaporizer according to claim 1, wherein the vaporizer further comprises an operation unit, which is configured to check a table stored in the vaporizer against data obtained by detecting the one or more aspects of the shape of the consumable container connecting surface.
 9. A consumable container configured to be connected to the vaporizer according to claim 1, and containing a consumable for being vaporized in the vaporizer, the consumable container comprising the consumable container connecting surface configured to be connected to the vaporizer connecting surface of the vaporizer when the consumable container is connected to the vaporizer, the shape of the consumable container connecting surface having one or more aspects which encode information about the consumable container.
 10. The consumable container according to claim 9, wherein at least parts of the consumable container connecting surface are made of a conductible material.
 11. The consumable container according to claim 9, wherein the one or more aspects of the shape of the consumable container connecting surface comprises indentations and/or protrusions at a predetermined area of the consumable container connecting surface.
 12. The consumable container according to claim 11, wherein the information is encoded by the presence or absence of indentations and/or protrusions on the consumable container connecting surface, and/or the depth and/or height levels of the different indentations and/or protrusions.
 13. (canceled)
 14. A method of obtaining information about a consumable container according to claim 9, comprising the step of: detecting which ones of the resilient members of the vaporizer are pressed down and/or how far the resilient members is pressed down when the vaporizer is connected to the consumable container, decoding the information on a basis of the detection, wherein the information is decoded by checking a table stored in the vaporizer against data obtained by the detection.
 15. The method according to claim 14, further comprising the step of indicating at least some of the obtained information to the user. 